Improved Topological Approximations by Digitization

Abstract

Cech complexes are useful simplicial complexes for computing and analyzing topological features of data that lies in Euclidean space. Unfortunately, computing these complexes becomes prohibitively expensive for large-sized data sets even for medium-to-low dimensional data. We present an approximation scheme for (1+ε)-approximating the topological information of the Cech complexes for n points in Rd, for ε∈(0,1]. Our approximation has a total size of n(1ε)O(d) for constant dimension d, improving all the currently available (1+ε)-approximation schemes of simplicial filtrations in Euclidean space. Perhaps counter-intuitively, we arrive at our result by adding additional n(1ε)O(d) sample points to the input. We achieve a bound that is independent of the spread of the point set by pre-identifying the scales at which the Cech complexes changes and sampling accordingly.